/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2019 Jean-Pierre Charras, jp.charras at wanadoo.fr * Copyright (C) 2012 SoftPLC Corporation, Dick Hollenbeck * Copyright (C) 1992-2021 KiCad Developers, see AUTHORS.txt for contributors. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, you may find one here: * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html * or you may search the http://www.gnu.org website for the version 2 license, * or you may write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include class DIALOG_COPPER_ZONE : public DIALOG_COPPER_ZONE_BASE { public: DIALOG_COPPER_ZONE( PCB_BASE_FRAME* aParent, ZONE_SETTINGS* aSettings ); private: using NET_FILTER = std::unique_ptr; using NET_FILTER_LIST = std::vector; static constexpr int INVALID_NET_CODE{ 0 }; static constexpr int DEFAULT_SORT_CONFIG{ -1 }; static constexpr int NO_PERSISTENT_SORT_MODE{ 0 }; static constexpr int HIDE_ANONYMOUS_NETS{ 1 << 0 }; static constexpr int SORT_BY_PAD_COUNT{ 1 << 1 }; PCB_BASE_FRAME* m_Parent; bool m_settingsExported; // settings will be written to all other zones ZONE_SETTINGS m_settings; ZONE_SETTINGS* m_ptr; bool m_netSortingByPadCount; NET_FILTER_LIST m_showNetsFilter; int m_cornerSmoothingType; int m_maxNetCode; int m_currentlySelectedNetcode; UNIT_BINDER m_outlineHatchPitch; UNIT_BINDER m_cornerRadius; UNIT_BINDER m_clearance; UNIT_BINDER m_minWidth; UNIT_BINDER m_antipadClearance; UNIT_BINDER m_spokeWidth; UNIT_BINDER m_gridStyleRotation; UNIT_BINDER m_gridStyleThickness; UNIT_BINDER m_gridStyleGap; UNIT_BINDER m_islandThreshold; bool m_hideAutoGeneratedNets; std::map m_netNameToNetCode; std::vector m_netInfoItemList; bool TransferDataToWindow() override; bool TransferDataFromWindow() override; /** * @param aUseExportableSetupOnly is true to use exportable parameters only (used to * export this setup to other zones). * @return bool - false if incorrect options, true if ok. */ bool AcceptOptions( bool aUseExportableSetupOnly = false ); void OnStyleSelection( wxCommandEvent& event ) override; void OnLayerSelection( wxDataViewEvent& event ) override; void OnNetSortingOptionSelected( wxCommandEvent& event ) override; void ExportSetupToOtherCopperZones( wxCommandEvent& event ) override; void OnShowNetNameFilterChange( wxCommandEvent& event ) override; void OnUpdateUI( wxUpdateUIEvent& ) override; void OnButtonCancelClick( wxCommandEvent& event ) override; void OnClose( wxCloseEvent& event ) override; void OnNetSelectionUpdated( wxCommandEvent& event ) override; void OnRemoveIslandsSelection( wxCommandEvent& event ) override; void readNetInformation(); void readFilteringAndSortingCriteria(); void buildListOfNets( const NETINFO_LIST& nets ); wxArrayString buildListOfNetsToDisplay(); void sortNetsByPadCount( std::vector& nets, const int maxNetCode ); void updateDisplayedListOfNets(); int ensureSelectedNetIsVisible( int selectedNetCode, wxArrayString& netsList ); void displayNetsList( const wxArrayString& netNamesList, int selectIndex ); void updateShowNetsFilter(); wxString getUnescapedNetName( const NETINFO_ITEM* net ); void sortNetsIfRequired(); wxArrayString getSortedNetNamesList(); wxArrayString applyShowFilter( const wxArrayString& sortedNetNames ); wxArrayString applyHideFilterIfRequired( const wxArrayString& netNames ); bool isAutoGenerated( const wxString& netName ); void updateCurrentNetSelection(); void updateInfoBar(); void handleRemoveIslandsSelection(); void storePersistentNetSortConfigurations(); void loadPersistentNetSortConfigurations(); }; int InvokeCopperZonesEditor( PCB_BASE_FRAME* aCaller, ZONE_SETTINGS* aSettings ) { DIALOG_COPPER_ZONE dlg( aCaller, aSettings ); return dlg.ShowQuasiModal(); } // The pad count for each netcode, stored in a buffer for a fast access. // This is needed by the sort function sortNetsByNodes() static std::vector padCountListByNet; // Sort nets by decreasing pad count. // For same pad count, sort by alphabetic names static bool sortNetsByNodes( const NETINFO_ITEM* a, const NETINFO_ITEM* b ) { int countA = padCountListByNet[a->GetNetCode()]; int countB = padCountListByNet[b->GetNetCode()]; if( countA == countB ) return a->GetNetname() < b->GetNetname(); else return countB < countA; } // Sort nets by alphabetic names static bool sortNetsByNames( const NETINFO_ITEM* a, const NETINFO_ITEM* b ) { return a->GetNetname() < b->GetNetname(); } DIALOG_COPPER_ZONE::DIALOG_COPPER_ZONE( PCB_BASE_FRAME* aParent, ZONE_SETTINGS* aSettings ) : DIALOG_COPPER_ZONE_BASE( aParent ), m_cornerSmoothingType( ZONE_SETTINGS::SMOOTHING_UNDEFINED ), m_outlineHatchPitch( aParent, m_stBorderHatchPitchText, m_outlineHatchPitchCtrl, m_outlineHatchUnits ), m_cornerRadius( aParent, m_cornerRadiusLabel, m_cornerRadiusCtrl, m_cornerRadiusUnits ), m_clearance( aParent, m_clearanceLabel, m_clearanceCtrl, m_clearanceUnits ), m_minWidth( aParent, m_minWidthLabel, m_minWidthCtrl, m_minWidthUnits ), m_antipadClearance( aParent, m_antipadLabel, m_antipadCtrl, m_antipadUnits ), m_spokeWidth( aParent, m_spokeWidthLabel, m_spokeWidthCtrl, m_spokeWidthUnits ), m_gridStyleRotation( aParent, m_staticTextGrindOrient, m_tcGridStyleOrientation, m_staticTextRotUnits ), m_gridStyleThickness( aParent, m_staticTextStyleThickness, m_tcGridStyleThickness, m_GridStyleThicknessUnits ), m_gridStyleGap( aParent, m_staticTextGridGap, m_tcGridStyleGap, m_GridStyleGapUnits ), m_islandThreshold( aParent, m_islandThresholdLabel, m_tcIslandThreshold, m_islandThresholdUnits ), m_hideAutoGeneratedNets{ false } { m_Parent = aParent; m_ptr = aSettings; m_settings = *aSettings; m_settings.SetupLayersList( m_layers, m_Parent, true ); m_settingsExported = false; m_currentlySelectedNetcode = INVALID_NET_CODE; m_maxNetCode = INVALID_NET_CODE; m_netSortingByPadCount = true; // false = alphabetic sort, true = pad count sort m_ShowNetNameFilter->SetHint( _( "Filter" ) ); m_cbRemoveIslands->Bind( wxEVT_CHOICE, [&]( wxCommandEvent& ) { // Area mode is index 2 bool val = m_cbRemoveIslands->GetSelection() == 2; m_tcIslandThreshold->Enable( val ); m_islandThresholdLabel->Enable( val ); m_islandThresholdUnits->Enable( val ); } ); SetupStandardButtons(); finishDialogSettings(); } bool DIALOG_COPPER_ZONE::TransferDataToWindow() { m_constrainOutline->SetValue( m_settings.m_Zone_45_Only ); m_cbLocked->SetValue( m_settings.m_Locked ); m_cornerSmoothingChoice->SetSelection( m_settings.GetCornerSmoothingType() ); m_cornerRadius.SetValue( m_settings.GetCornerRadius() ); m_PriorityLevelCtrl->SetValue( m_settings.m_ZonePriority ); switch( m_settings.m_ZoneBorderDisplayStyle ) { case ZONE_BORDER_DISPLAY_STYLE::NO_HATCH: m_OutlineDisplayCtrl->SetSelection( 0 ); break; case ZONE_BORDER_DISPLAY_STYLE::DIAGONAL_EDGE: m_OutlineDisplayCtrl->SetSelection( 1 ); break; case ZONE_BORDER_DISPLAY_STYLE::DIAGONAL_FULL: m_OutlineDisplayCtrl->SetSelection( 2 ); break; } m_outlineHatchPitch.SetValue( m_settings.m_BorderHatchPitch ); m_clearance.SetValue( m_settings.m_ZoneClearance ); m_minWidth.SetValue( m_settings.m_ZoneMinThickness ); switch( m_settings.GetPadConnection() ) { default: case ZONE_CONNECTION::THERMAL: m_PadInZoneOpt->SetSelection( 1 ); break; case ZONE_CONNECTION::THT_THERMAL: m_PadInZoneOpt->SetSelection( 2 ); break; case ZONE_CONNECTION::NONE: m_PadInZoneOpt->SetSelection( 3 ); break; case ZONE_CONNECTION::FULL: m_PadInZoneOpt->SetSelection( 0 ); break; } // Do not enable/disable antipad clearance and spoke width. They might be needed if // a footprint or pad overrides the zone to specify a thermal connection. m_antipadClearance.SetValue( m_settings.m_ThermalReliefGap ); m_spokeWidth.SetValue( m_settings.m_ThermalReliefSpokeWidth ); m_islandThreshold.SetDataType( EDA_DATA_TYPE::AREA ); m_islandThreshold.SetDoubleValue( static_cast( m_settings.GetMinIslandArea() ) ); m_cbRemoveIslands->SetSelection( static_cast( m_settings.GetIslandRemovalMode() ) ); bool val = m_settings.GetIslandRemovalMode() == ISLAND_REMOVAL_MODE::AREA; m_tcIslandThreshold->Enable( val ); m_islandThresholdLabel->Enable( val ); m_islandThresholdUnits->Enable( val ); loadPersistentNetSortConfigurations(); m_sortByPadsOpt->SetValue( m_netSortingByPadCount ); m_hideAutoGenNetNamesOpt->SetValue( m_hideAutoGeneratedNets ); m_currentlySelectedNetcode = m_settings.m_NetcodeSelection; // Initialize information required to display nets list readNetInformation(); switch( m_settings.m_FillMode ) { case ZONE_FILL_MODE::HATCH_PATTERN: m_GridStyleCtrl->SetSelection( 1 ); break; default: m_GridStyleCtrl->SetSelection( 0 ); break; } m_gridStyleRotation.SetUnits( EDA_UNITS::DEGREES ); m_gridStyleRotation.SetAngleValue( m_settings.m_HatchOrientation ); // Gives a reasonable value to grid style parameters, if currently there are no defined // parameters for grid pattern thickness and gap (if the value is 0) // the grid pattern thickness default value is (arbitrary) m_ZoneMinThickness * 4 // or 1mm // the grid pattern gap default value is (arbitrary) m_ZoneMinThickness * 6 // or 1.5 mm int bestvalue = m_settings.m_HatchThickness; if( bestvalue <= 0 ) // No defined value for m_HatchThickness bestvalue = std::max( m_settings.m_ZoneMinThickness * 4, Millimeter2iu( 1.0 ) ); m_gridStyleThickness.SetValue( std::max( bestvalue, m_settings.m_ZoneMinThickness ) ); bestvalue = m_settings.m_HatchGap; if( bestvalue <= 0 ) // No defined value for m_HatchGap bestvalue = std::max( m_settings.m_ZoneMinThickness * 6, Millimeter2iu( 1.5 ) ); m_gridStyleGap.SetValue( std::max( bestvalue, m_settings.m_ZoneMinThickness ) ); m_spinCtrlSmoothLevel->SetValue( m_settings.m_HatchSmoothingLevel ); m_spinCtrlSmoothValue->SetValue( m_settings.m_HatchSmoothingValue ); m_tcZoneName->SetValue( m_settings.m_Name ); updateInfoBar(); handleRemoveIslandsSelection(); updateDisplayedListOfNets(); SetInitialFocus( m_ShowNetNameFilter ); // Enable/Disable some widgets wxCommandEvent event; OnStyleSelection( event ); Fit(); return true; } void DIALOG_COPPER_ZONE::readNetInformation() { NETINFO_LIST& netInfoList = m_Parent->GetBoard()->GetNetInfo(); if( netInfoList.GetNetCount() > 0 ) { buildListOfNets( netInfoList ); } } void DIALOG_COPPER_ZONE::buildListOfNets( const NETINFO_LIST& nets ) { m_netInfoItemList.clear(); m_netInfoItemList.reserve( nets.GetNetCount() ); m_netNameToNetCode.clear(); m_netNameToNetCode[wxT( "" )] = INVALID_NET_CODE; m_maxNetCode = INVALID_NET_CODE; for( NETINFO_ITEM* net : nets ) { const int& netCode = net->GetNetCode(); const wxString& netName = getUnescapedNetName( net ); m_netNameToNetCode[netName] = netCode; if( netCode > INVALID_NET_CODE && net->IsCurrent() ) { m_netInfoItemList.push_back( net ); m_maxNetCode = std::max( netCode, m_maxNetCode ); } } } void DIALOG_COPPER_ZONE::OnUpdateUI( wxUpdateUIEvent& ) { if( m_cornerSmoothingType != m_cornerSmoothingChoice->GetSelection() ) { m_cornerSmoothingType = m_cornerSmoothingChoice->GetSelection(); if( m_cornerSmoothingChoice->GetSelection() == ZONE_SETTINGS::SMOOTHING_CHAMFER ) m_cornerRadiusLabel->SetLabel( _( "Chamfer distance:" ) ); else m_cornerRadiusLabel->SetLabel( _( "Fillet radius:" ) ); } m_cornerRadiusCtrl->Enable(m_cornerSmoothingType > ZONE_SETTINGS::SMOOTHING_NONE ); } void DIALOG_COPPER_ZONE::OnButtonCancelClick( wxCommandEvent& event ) { // After an "Export Settings to Other Zones" cancel and close must return // ZONE_EXPORT_VALUES instead of wxID_CANCEL. Close( true ); } void DIALOG_COPPER_ZONE::OnNetSelectionUpdated( wxCommandEvent& event ) { updateCurrentNetSelection(); updateInfoBar(); // When info bar is updated, the nets-list shrinks. // Therefore, we need to reestablish the list and maintain the // correct selection updateDisplayedListOfNets(); handleRemoveIslandsSelection(); } void DIALOG_COPPER_ZONE::OnRemoveIslandsSelection( wxCommandEvent& event ) { handleRemoveIslandsSelection(); } void DIALOG_COPPER_ZONE::handleRemoveIslandsSelection() { bool noNetSelected = m_currentlySelectedNetcode == INVALID_NET_CODE; bool enableSize = !noNetSelected && ( m_cbRemoveIslands->GetSelection() == 2 ); // Zones with no net never have islands removed m_cbRemoveIslands->Enable( !noNetSelected ); m_islandThresholdLabel->Enable( enableSize ); m_islandThresholdUnits->Enable( enableSize ); m_tcIslandThreshold->Enable( enableSize ); } bool DIALOG_COPPER_ZONE::TransferDataFromWindow() { if( m_GridStyleCtrl->GetSelection() > 0 ) m_settings.m_FillMode = ZONE_FILL_MODE::HATCH_PATTERN; else m_settings.m_FillMode = ZONE_FILL_MODE::POLYGONS; if( !AcceptOptions() ) return false; m_settings.m_HatchOrientation = m_gridStyleRotation.GetAngleValue(); m_settings.m_HatchThickness = m_gridStyleThickness.GetValue(); m_settings.m_HatchGap = m_gridStyleGap.GetValue(); m_settings.m_HatchSmoothingLevel = m_spinCtrlSmoothLevel->GetValue(); m_settings.m_HatchSmoothingValue = m_spinCtrlSmoothValue->GetValue(); *m_ptr = m_settings; return true; } void DIALOG_COPPER_ZONE::OnClose( wxCloseEvent& event ) { SetReturnCode( m_settingsExported ? ZONE_EXPORT_VALUES : wxID_CANCEL ); event.Skip(); } bool DIALOG_COPPER_ZONE::AcceptOptions( bool aUseExportableSetupOnly ) { if( !m_clearance.Validate( 0, Mils2iu( ZONE_CLEARANCE_MAX_VALUE_MIL ) ) ) return false; if( !m_minWidth.Validate( Mils2iu( ZONE_THICKNESS_MIN_VALUE_MIL ), INT_MAX ) ) return false; if( !m_cornerRadius.Validate( 0, INT_MAX ) ) return false; if( !m_spokeWidth.Validate( 0, INT_MAX ) ) return false; m_gridStyleRotation.SetValue( NormalizeAngle180( m_gridStyleRotation.GetValue() ) ); if( m_settings.m_FillMode == ZONE_FILL_MODE::HATCH_PATTERN ) { int minThickness = m_minWidth.GetValue(); if( !m_gridStyleThickness.Validate( minThickness, INT_MAX ) ) return false; if( !m_gridStyleGap.Validate( minThickness, INT_MAX ) ) return false; } switch( m_PadInZoneOpt->GetSelection() ) { case 3: m_settings.SetPadConnection( ZONE_CONNECTION::NONE ); break; case 2: m_settings.SetPadConnection( ZONE_CONNECTION::THT_THERMAL ); break; case 1: m_settings.SetPadConnection( ZONE_CONNECTION::THERMAL ); break; case 0: m_settings.SetPadConnection( ZONE_CONNECTION::FULL ); break; } switch( m_OutlineDisplayCtrl->GetSelection() ) { case 0: m_settings.m_ZoneBorderDisplayStyle = ZONE_BORDER_DISPLAY_STYLE::NO_HATCH; break; case 1: m_settings.m_ZoneBorderDisplayStyle = ZONE_BORDER_DISPLAY_STYLE::DIAGONAL_EDGE; break; case 2: m_settings.m_ZoneBorderDisplayStyle = ZONE_BORDER_DISPLAY_STYLE::DIAGONAL_FULL; break; } if( !m_outlineHatchPitch.Validate( Millimeter2iu( ZONE_BORDER_HATCH_MINDIST_MM ), Millimeter2iu( ZONE_BORDER_HATCH_MAXDIST_MM ) ) ) return false; m_settings.m_BorderHatchPitch = m_outlineHatchPitch.GetValue(); PCBNEW_SETTINGS* cfg = m_Parent->GetPcbNewSettings(); cfg->m_Zones.hatching_style = static_cast( m_settings.m_ZoneBorderDisplayStyle ); m_settings.m_ZoneClearance = m_clearance.GetValue(); m_settings.m_ZoneMinThickness = m_minWidth.GetValue(); m_settings.SetCornerSmoothingType( m_cornerSmoothingChoice->GetSelection() ); m_settings.SetCornerRadius( m_settings.GetCornerSmoothingType() == ZONE_SETTINGS::SMOOTHING_NONE ? 0 : m_cornerRadius.GetValue() ); m_settings.m_ZonePriority = m_PriorityLevelCtrl->GetValue(); m_settings.m_Zone_45_Only = m_constrainOutline->GetValue(); m_settings.m_Locked = m_cbLocked->GetValue(); m_settings.m_ThermalReliefGap = m_antipadClearance.GetValue(); m_settings.m_ThermalReliefSpokeWidth = m_spokeWidth.GetValue(); if( m_settings.m_ThermalReliefSpokeWidth < m_settings.m_ZoneMinThickness ) { DisplayError( this, _( "Thermal spoke width cannot be smaller than the minimum width." ) ); return false; } storePersistentNetSortConfigurations(); cfg->m_Zones.clearance = Iu2Mils( m_settings.m_ZoneClearance ); cfg->m_Zones.min_thickness = Iu2Mils( m_settings.m_ZoneMinThickness ); cfg->m_Zones.thermal_relief_gap = Iu2Mils( m_settings.m_ThermalReliefGap ); cfg->m_Zones.thermal_relief_copper_width = Iu2Mils( m_settings.m_ThermalReliefSpokeWidth ); m_settings.SetIslandRemovalMode( static_cast( m_cbRemoveIslands->GetSelection() ) ); m_settings.SetMinIslandArea( m_islandThreshold.GetValue() ); // If we use only exportable to others zones parameters, exit here: if( aUseExportableSetupOnly ) return true; // Get the layer selection for this zone int layers = 0; for( int ii = 0; ii < m_layers->GetItemCount(); ++ii ) { if( m_layers->GetToggleValue( (unsigned) ii, 0 ) ) layers++; } if( layers == 0 ) { DisplayError( this, _( "No layer selected." ) ); return false; } m_settings.m_NetcodeSelection = m_currentlySelectedNetcode; m_settings.m_Name = m_tcZoneName->GetValue(); return true; } void DIALOG_COPPER_ZONE::updateCurrentNetSelection() { const int netSelection{ m_ListNetNameSelection->GetSelection() }; if( netSelection ) { const wxString& selectedNetName = m_ListNetNameSelection->GetString( netSelection ); m_currentlySelectedNetcode = m_netNameToNetCode[selectedNetName]; } else { m_currentlySelectedNetcode = INVALID_NET_CODE; } } void DIALOG_COPPER_ZONE::OnStyleSelection( wxCommandEvent& event ) { bool enable = m_GridStyleCtrl->GetSelection() >= 1; m_tcGridStyleThickness->Enable( enable ); m_tcGridStyleGap->Enable( enable ); m_tcGridStyleOrientation->Enable( enable ); m_spinCtrlSmoothLevel->Enable( enable ); m_spinCtrlSmoothValue->Enable( enable ); } void DIALOG_COPPER_ZONE::OnLayerSelection( wxDataViewEvent& event ) { if( event.GetColumn() != 0 ) return; int row = m_layers->ItemToRow( event.GetItem() ); bool checked = m_layers->GetToggleValue( row, 0 ); wxVariant layerID; m_layers->GetValue( layerID, row, 2 ); m_settings.m_Layers.set( ToLAYER_ID( layerID.GetInteger() ), checked ); } void DIALOG_COPPER_ZONE::OnNetSortingOptionSelected( wxCommandEvent& event ) { updateDisplayedListOfNets(); } void DIALOG_COPPER_ZONE::storePersistentNetSortConfigurations() { // These configurations are persistent across multiple invokations of // this dialog int newConfig{ NO_PERSISTENT_SORT_MODE }; if( m_hideAutoGeneratedNets ) { newConfig |= HIDE_ANONYMOUS_NETS; } if( m_netSortingByPadCount ) { newConfig |= SORT_BY_PAD_COUNT; } PCBNEW_SETTINGS* cfg = m_Parent->GetPcbNewSettings(); cfg->m_Zones.net_sort_mode = newConfig; } void DIALOG_COPPER_ZONE::loadPersistentNetSortConfigurations() { PCBNEW_SETTINGS* cfg{ m_Parent->GetPcbNewSettings() }; int savedConfig{ cfg->m_Zones.net_sort_mode }; if( savedConfig == DEFAULT_SORT_CONFIG ) { savedConfig = HIDE_ANONYMOUS_NETS; } m_hideAutoGeneratedNets = ( savedConfig & HIDE_ANONYMOUS_NETS ); m_netSortingByPadCount = ( savedConfig & SORT_BY_PAD_COUNT ); } void DIALOG_COPPER_ZONE::ExportSetupToOtherCopperZones( wxCommandEvent& event ) { if( !AcceptOptions( true ) ) return; // Export settings ( but layer and netcode ) to others copper zones BOARD* pcb = m_Parent->GetBoard(); for( ZONE* zone : pcb->Zones() ) { // Cannot export settings from a copper zone // to a zone keepout: if( zone->GetIsRuleArea() ) continue; m_settings.ExportSetting( *zone, false ); // false = partial export m_settingsExported = true; m_Parent->OnModify(); } } void DIALOG_COPPER_ZONE::OnShowNetNameFilterChange( wxCommandEvent& event ) { updateDisplayedListOfNets(); } void DIALOG_COPPER_ZONE::updateDisplayedListOfNets() { readFilteringAndSortingCriteria(); wxArrayString listOfNets = buildListOfNetsToDisplay(); const int selectedNet = ensureSelectedNetIsVisible( m_currentlySelectedNetcode, listOfNets ); displayNetsList( listOfNets, selectedNet ); } void DIALOG_COPPER_ZONE::readFilteringAndSortingCriteria() { updateShowNetsFilter(); // Hide nets filter criteria m_hideAutoGeneratedNets = m_hideAutoGenNetNamesOpt->GetValue(); // Nets sort criteria m_netSortingByPadCount = m_sortByPadsOpt->GetValue(); } void DIALOG_COPPER_ZONE::updateShowNetsFilter() { wxString netNameShowFilter = m_ShowNetNameFilter->GetValue(); if( netNameShowFilter.Len() == 0 ) { netNameShowFilter = wxT( "*" ); } wxStringTokenizer showFilters( netNameShowFilter.Lower(), wxT( "," ) ); m_showNetsFilter.clear(); while( showFilters.HasMoreTokens() ) { wxString filter = showFilters.GetNextToken(); filter.Trim( false ); filter.Trim( true ); if( !filter.IsEmpty() ) { m_showNetsFilter.emplace_back( std::make_unique() ); m_showNetsFilter.back()->SetPattern( filter ); } } } wxArrayString DIALOG_COPPER_ZONE::buildListOfNetsToDisplay() { sortNetsIfRequired(); const wxArrayString sortedNetNames = getSortedNetNamesList(); const wxArrayString netsAfterShowFilter = applyShowFilter( sortedNetNames ); wxArrayString filteredNetNames = applyHideFilterIfRequired( netsAfterShowFilter ); return filteredNetNames; } void DIALOG_COPPER_ZONE::sortNetsIfRequired() { if( m_netSortingByPadCount ) { sortNetsByPadCount( m_netInfoItemList, m_maxNetCode ); } else { sort( m_netInfoItemList.begin(), m_netInfoItemList.end(), sortNetsByNames ); } } void DIALOG_COPPER_ZONE::sortNetsByPadCount( std::vector& nets, const int maxNetCode ) { const std::vector pads = m_Parent->GetBoard()->GetPads(); padCountListByNet.clear(); // +1 is required for item padCountListByNet.assign( maxNetCode + 1, 0 ); for( PAD* pad : pads ) { const int netCode = pad->GetNetCode(); if( netCode > INVALID_NET_CODE ) padCountListByNet[netCode]++; } sort( nets.begin(), nets.end(), sortNetsByNodes ); } wxArrayString DIALOG_COPPER_ZONE::getSortedNetNamesList() { wxArrayString sortedNetNames; for( NETINFO_ITEM* net : m_netInfoItemList ) { const wxString& netName = getUnescapedNetName( net ); sortedNetNames.Add( netName ); } return sortedNetNames; } wxArrayString DIALOG_COPPER_ZONE::applyShowFilter( const wxArrayString& netNames ) { wxArrayString netsAfterShowFilter; for( const wxString& netName : netNames ) { for( const NET_FILTER& filter : m_showNetsFilter ) { if( filter->Find( netName.Lower() ) ) { netsAfterShowFilter.Add( netName ); } } } return netsAfterShowFilter; } wxArrayString DIALOG_COPPER_ZONE::applyHideFilterIfRequired( const wxArrayString& netNames ) { wxArrayString filteredNetNames; if( m_hideAutoGeneratedNets ) { for( const wxString& netName : netNames ) { if( !isAutoGenerated( netName ) ) { filteredNetNames.Add( netName ); } } } else { filteredNetNames = netNames; } filteredNetNames.Insert( wxT( "" ), INVALID_NET_CODE ); return filteredNetNames; } bool DIALOG_COPPER_ZONE::isAutoGenerated( const wxString& netName ) { return netName.StartsWith( wxT( "Net-(" ) ) || netName.StartsWith( wxT( "unconnected-(" ) ); } void DIALOG_COPPER_ZONE::displayNetsList( const wxArrayString& netNamesList, int selectIndex ) { m_ListNetNameSelection->Clear(); m_ListNetNameSelection->InsertItems( netNamesList, 0 ); m_ListNetNameSelection->SetSelection( selectIndex ); m_ListNetNameSelection->EnsureVisible( selectIndex ); } int DIALOG_COPPER_ZONE::ensureSelectedNetIsVisible( int selectedNetCode, wxArrayString& netsList ) { int selectedIndex = 0; if( selectedNetCode > INVALID_NET_CODE ) { NETINFO_ITEM* selectedNet = m_Parent->GetBoard()->FindNet( selectedNetCode ); if( selectedNet ) { const wxString& netName = getUnescapedNetName( selectedNet ); selectedIndex = netsList.Index( netName ); if( wxNOT_FOUND == selectedIndex ) { // the currently selected net must *always* be visible. // is the zero'th index, so pick next lowest netsList.Insert( netName, 1 ); selectedIndex = 1; } } } return selectedIndex; } wxString DIALOG_COPPER_ZONE::getUnescapedNetName( const NETINFO_ITEM* net ) { return UnescapeString( net->GetNetname() ); } void DIALOG_COPPER_ZONE::updateInfoBar() { if( m_currentlySelectedNetcode <= INVALID_NET_CODE && !m_copperZoneInfo->IsShown() ) { m_copperZoneInfo->ShowMessage( _( "Selecting will create an isolated copper island." ), wxICON_WARNING ); } else if( m_currentlySelectedNetcode > INVALID_NET_CODE && m_copperZoneInfo->IsShown() ) { m_copperZoneInfo->Dismiss(); } }